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(a) Calculate the self-inductance of a 50.0 cm long, 10.0

College Physics | 1st Edition | ISBN: 9781938168000 | Authors: Paul Peter Urone, Roger Hinrichs ISBN: 9781938168000 42

Solution for problem 62PE Chapter 23

College Physics | 1st Edition

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College Physics | 1st Edition | ISBN: 9781938168000 | Authors: Paul Peter Urone, Roger Hinrichs

College Physics | 1st Edition

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Problem 62PE

Problem 62PE

(a) Calculate the self-inductance of a 50.0 cm long, 10.0 cm diameter solenoid having 1000 loops. (b) How much energy is stored in this inductor when 20.0 A of current flows through it? (c) How fast can it be turned off if the induced emf cannot exceed 3.00 V?

Step-by-Step Solution:
Step 1 of 3

Solution 62PE

a.)

    =

    =

   = ( 0.01973 H) ()

Solve further,

L=19.73 mH

Hence, the self- inductance of a solenoid is 19.73 mH

b.)  The energy stored in the solenoid is 1.25 x105 J

c.)  The time required to turn off is  0.132 s

Step 2 of 3

Chapter 23, Problem 62PE is Solved
Step 3 of 3

Textbook: College Physics
Edition: 1
Author: Paul Peter Urone, Roger Hinrichs
ISBN: 9781938168000

The full step-by-step solution to problem: 62PE from chapter: 23 was answered by , our top Physics solution expert on 07/07/17, 04:39PM. This full solution covers the following key subjects: calculate, cannot, current, diameter, EMF. This expansive textbook survival guide covers 34 chapters, and 3125 solutions. This textbook survival guide was created for the textbook: College Physics , edition: 1. The answer to “(a) Calculate the self-inductance of a 50.0 cm long, 10.0 cm diameter solenoid having 1000 loops. (b) How much energy is stored in this inductor when 20.0 A of current flows through it? (c) How fast can it be turned off if the induced emf cannot exceed 3.00 V?” is broken down into a number of easy to follow steps, and 49 words. Since the solution to 62PE from 23 chapter was answered, more than 342 students have viewed the full step-by-step answer. College Physics was written by and is associated to the ISBN: 9781938168000.

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(a) Calculate the self-inductance of a 50.0 cm long, 10.0